Alejandro Pando scite author profile

: Recent investigations have shown that different conditions such as diet, the overuse of antibiotics or the colonization of pathogenic microorganisms can alter the population status of the intestinal microbiota. This modification can produce a change from homeostasis to a condition known as imbalance or dysbiosis; however, the role-played by dysbiosis and the development of inflammatory bowel diseases (IBD) has been poorly understood. It was actually not until a few years ago that studies started to develop regarding the role that dendritic cells (DC) of intestinal mucosa play in the sensing of the gut microbiota population. The latest studies have focused on describing the DC modulation, specifically on tolerance response involving T regulatory cells or on the inflammatory response involving reactive oxygen species and tissue damage. Furthermore, the latest studies have also focused on the protective and restorative effect of the population of the gut microbiota given by probiotic therapy, targeting IBD and other intestinal pathologies. In the present work, the authors propose and summarize a recently studied complex axis of interaction between the population of the gut microbiota, the sensing of the DC and its modulation towards tolerance and inflammation, the development of IBD and the protective and restorative effect of probiotics on other intestinal pathologies.

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Murine Leukemia-Derived Extracellular Vesicles Elicit Antitumor Immune Response

Pando¹,

Fast²,

Dubielecka³

et al. 2021

JBM

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Background: Extracellular vesicles (EVs) are heterogeneous lipid bilayer particles secreted by cells. EVs contain proteins, RNA, DNA and other cargo that can have immunomodulatory effects. Cancer-derived EVs have been described as having immunomodulating effects in vivo with immunosuppressive and pro-tumor growth capabilities. However, cancerderived EVs have also been harnessed and utilized for anti-cancer potential. Methods: To assess the immunomodulatory effect of EVs produced by acute myeloid leukemia (AML) cells, we isolated vesicles secreted by the murine AML cell line, C1498, and investigated their effect on in vitro and in vivo immune responses. Results: These leukemia-derived EVs were found to induce increased proliferation of CD3+ cells and enhanced cytolytic activity of CD3+ cells directed toward leukemic cells in vitro. Injection of leukemia-derived EVs into syngeneic naïve mice induced T cell responses in vivo and resulted in enhanced immune responses upon T cell re-stimulation in vitro. Conclusion:These findings indicate that C1498-derived EVs have immunomodulatory effects on cell-mediated immune responses that could potentially be utilized to facilitate antileukemia immune responses.

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Osmotic pressure characterization of glycosaminoglycans using full-atomistic molecular models

Pando

Rigoldi

Vesentini

2017

Preprint

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The osmotic pressure of chondroitin sulfate glycosaminoglycans (CS-GAGs) in a simulated physiological environment of articular cartilage is thoroughly examined in silico using full atomistic models. The effects of chemical and physical properties were investigated to elucidate the molecular origins of cartilage biomechanical behavior providing singleatomistic resolution analyses which would not be attainable with in vivo or in in vitro techniques. CS-GAG chains exhibit plastic deformation behavior under compressive load in the extracellular matrix (ECM) and osmotic pressure is the main contributor in balancing external pressures. This study focuses on quantitatively expressing this contribution.Molecular dynamics was used to imitate the physiological environment experienced by

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Alejandro Pando

Extracellular vesicles in leukemia

The Use of Probiotic Therapy to Modulate the Gut Microbiota and Dendritic Cell Responses in Inflammatory Bowel Diseases

Murine Leukemia-Derived Extracellular Vesicles Elicit Antitumor Immune Response

Osmotic pressure characterization of glycosaminoglycans using full-atomistic molecular models

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